14 KiB
Lume
A collection of functions for Lua, geared towards game development.
Installation
The lume.lua file should be dropped into an existing project and required by it:
lume = require "lume"
Function Reference
lume.clamp(x, min, max)
Returns the number x
clamped between the numbers min
and max
lume.round(x [, increment])
Rounds x
to the nearest integer; rounds away from zero if we're midway
between two integers. If increment
is set then the number is rounded to the
nearest increment.
lume.round(2.3) -- Returns 2
lume.round(123.4567, .1) -- Returns 123.5
lume.sign(x)
Returns 1
if x
is 0 or above, returns -1
when x
is negative.
lume.lerp(a, b, amount)
Returns the linearly interpolated number between a
and b
, amount
should
be in the range of 0 - 1; if amount
is outside of this range it is clamped.
lume.lerp(100, 200, .5) -- Returns 150
lume.smooth(a, b, amount)
Similar to lume.lerp()
but uses cubic interpolation instead of linear
interpolation.
lume.pingpong(x)
Ping-pongs the number x
between 0 and 1.
lume.distance(x1, y1, x2, y2 [, squared])
Returns the distance between the two points. If squared
is true then the
squared distance is returned -- this is faster to calculate and can still be
used when comparing distances.
lume.angle(x1, y1, x2, y2)
Returns the angle between the two points.
lume.random([a [, b]])
Returns a random number between a
and b
. If only a
is supplied a number
between 0
and a
is returned. If no arguments are supplied a random number
between 0
and 1
is returned.
lume.randomchoice(t)
Returns a random value from array t
. If the array is empty an error is
raised.
lume.randomchoice({true, false}) -- Returns either true or false
lume.weightedchoice(t)
Takes the argument table t
where the keys are the possible choices and the
value is the choice's weight. A weight should be 0 or above, the larger the
number the higher the probability of that choice being picked. If the table is
empty, a weight is below zero or all the weights are 0 then an error is raised.
lume.weightedchoice({ ["cat"] = 10, ["dog"] = 5, ["frog"] = 0 })
-- Returns either "cat" or "dog" with "cat" being twice as likely to be chosen.
lume.push(t, ...)
Pushes all the given values to the end of the table t
and returns the pushed
values. Nil values are ignored.
local t = { 1, 2, 3 }
lume.push(t, 4, 5) -- `t` becomes { 1, 2, 3, 4, 5 }
lume.remove(t, x)
Removes the first instance of the value x
if it exists in the table t
.
Returns x
.
local t = { 1, 2, 3 }
lume.remove(t, 2) -- `t` becomes { 1, 3 }
lume.clear(t)
Nils all the values in the table t
, this renders the table empty.
local t = { 1, 2, 3 }
lume.clear(t) -- `t` becomes {}
lume.shuffle(t)
Returns a shuffled copy of the array t
.
lume.sort(t [, comp])
Returns a copy of the array t
with all its items sorted. If comp
is a
function it will be used to compare the items when sorting. If comp
is a
string it will be used as the key to sort the items by.
lume.sort({ 1, 4, 3, 2, 5 }) -- Returns { 1, 2, 3, 4, 5 }
lume.sort({ {z=2}, {z=3}, {z=1} }, "z") -- Returns { {z=1}, {z=2}, {z=3} }
lume.sort({ 1, 3, 2 }, function(a, b) return a > b end) -- Returns { 3, 2, 1 }
lume.array(...)
Iterates the supplied iterator and returns an array filled with the values.
lume.array(pairs({a = 1, b = 2})) -- Returns {"a", "b"}
lume.each(t, fn, ...)
Iterates the table t
and calls the function fn
on each value followed by
the supplied additional arguments; if fn
is a string the method of that name
is called for each value. The function returns t
unmodified.
lume.each({1, 2, 3}, print) -- Prints "1", "2", "3" on separate lines
lume.each({a, b, c}, "move", 10, 20) -- Does x:move(10, 20) on each value
lume.map(t, fn)
Applies the function fn
to each value in table t
and returns a new table
with the resulting values.
lume.map({1, 2, 3}, function(x) return x * 2 end) -- Returns {2, 4, 6}
lume.all(t [, fn])
Returns true if all the values in t
table are true. If a fn
function is
supplied it is called on each value, true is returned if all of the calls to
fn
return true.
lume.all({1, 2, 1}, function(x) return x == 1 end) -- Returns false
lume.any(t [, fn])
Returns true if any of the values in t
table are true. If a fn
function is
supplied it is called on each value, true is returned if any of the calls to
fn
return true.
lume.any({1, 2, 1}, function(x) return x == 1 end) -- Returns true
lume.reduce(t, fn [, first])
Applies fn
on two arguments cumulative to the items of the array t
, from
left to right, so as to reduce the array to a single value. If a first
value
is specified the accumulator is initialised to this, otherwise the first value
in the array is used. If the array is empty and no first
value is specified
an error is raised,
lume.reduce({1, 2, 3}, function(a, b) return a + b end) -- Returns 6
lume.set(t)
Returns a copy of the t
array with all the duplicate values removed.
lume.set({2, 1, 2, "cat", "cat"}) -- Returns {1, 2, "cat"}
lume.filter(t, fn [, retainkeys])
Calls fn
on each value of t
table. Returns a new table with only the values
where fn
returned true. If retainkeys
is true the table is not treated as
an array and retains its original keys.
lume.filter({1, 2, 3, 4}, function(x) return x % 2 == 0 end) -- Returns {2, 4}
lume.merge(...)
Returns a new table with all the given tables merged together. If a key exists in multiple tables the right-most table's value is used.
lume.merge({a=1, b=2, c=3}, {c=8, d=9}) -- Returns {a=1, b=2, c=8, d=9}
lume.concat(...)
Returns a new array consisting of all the given arrays concatenated into one.
lume.concat({1, 2}, {3, 4}, {5, 6}) -- Returns {1, 2, 3, 4, 5, 6}
lume.find(t, value)
Returns the index/key of value
in t
. Returns nil
if that value does not
exist in the table.
lume.find({"a", "b", "c"}, "b") -- Returns 2
lume.match(t, fn)
Returns the value and key of the value in table t
which returns true when
fn
is called on it. Returns nil
if no such value exists.
lume.match({1, 5, 8, 7}, function(x) return x % 2 == 0 end) -- Returns 8, 3
lume.count(t [, fn])
Counts the number of values in the table t
. If a fn
function is supplied it
is called on each value, the number of times it returns true is counted.
lume.count({a = 2, b = 3, c = 4, d = 5}) -- Returns 4
lume.count({1, 2, 4, 6}, function(x) return x % 2 == 0 end) -- Returns 3
lume.slice(t [, i [, j]])
Mimics the behaviour of Lua's string.sub
, but operates on an array rather
than a string. Creates and returns a new array of the given slice.
lume.slice({"a", "b", "c", "d", "e"}, 2, 4) -- Returns {"b", "c", "d"}
lume.first(t [, n])
Returns the first element of an array or nil if the array is empty. If n
is
specificed an array of the first n
elements is returned.
lume.first({"a", "b", "c"}) -- Returns "a"
lume.last(t [, n])
Returns the last element of an array or nil if the array is empty. If n
is
specificed an array of the last n
elements is returned.
lume.last({"a", "b", "c"}) -- Returns "c"
lume.invert(t)
Returns a copy of the table where the keys have become the values and the values the keys.
lume.invert({a = "x", b = "y"}) -- returns {x = "a", y = "b"}
lume.keys(t)
Returns an array containing each key of the table.
lume.clone(t)
Returns a shallow copy of the table t
.
lume.fn(fn, ...)
Creates a wrapper function around function fn
, automatically inserting the
arguments into fn
which will persist every time the wrapper is called. Any
arguments which are passed to the returned function will be inserted after the
already existing arguments passed to fn
.
local f = lume.fn(print, "Hello")
f("world") -- Prints "Hello world"
lume.once(fn, ...)
Returns a wrapper function to fn
which takes the supplied arguments. The
wrapper function will call fn
on the first call and do nothing on any
subsequent calls.
local f = lume.once(print, "Hello")
f() -- Prints "Hello"
f() -- Does nothing
lume.memoize(fn)
Returns a wrapper function to fn
where the results for any given set of
arguments are cached. lume.memoize()
is useful when used on functions with
slow-running computations.
fib = lume.memoize(function(n) return n < 2 and n or fib(n-1) + fib(n-2) end)
lume.combine(...)
Creates a wrapper function which calls each supplied argument in the order they
were passed to lume.combine()
; nil arguments are ignored. The wrapper
function passes its own arguments to each of its wrapped functions when it is
called.
local f = lume.combine(function(a, b) print(a + b) end,
function(a, b) print(a * b) end)
f(3, 4) -- Prints "7" then "12" on a new line
lume.call(fn, ...)
Calls the given function with the provided arguments and returns its values. If
fn
is nil
then no action is performed and the function returns nil
.
lume.call(print, "Hello world") -- Prints "Hello world"
lume.time(fn, ...)
Inserts the arguments into function fn
and calls it. Returns the time in
seconds the function fn
took to execute followed by fn
's returned values.
lume.time(function(x) return x end, "hello") -- Returns 0, "hello"
lume.lambda(str)
Takes a string lambda and returns a function. str
should be a list of
comma-separated parameters, followed by ->
, followed by the expression which
will be evaluated and returned.
local f = lume.lambda "x,y -> 2*x+y"
f(10, 5) -- Returns 25
lume.serialize(x)
Serializes the argument x
into a string which can be loaded again using
lume.deserialize()
. Only booleans, numbers, tables and strings can be
serialized. Circular references are not handled; all nested tables are
serialized as unique tables.
lume.serialize({a = "test", b = {1, 2, 3}, false})
-- Returns "{[1]=false,["a"]="test",["b"]={[1]=1,[2]=2,[3]=3,},}"
lume.deserialize(str)
Deserializes a string created by lume.serialize()
and returns the resulting
value. This function should not be run on an untrusted string.
lume.deserialize("{1, 2, 3}") -- Returns {1, 2, 3}
lume.split(str [, sep])
Returns an array of the words in the string str
. If sep
is provided it is
used as the delimiter, consecutive delimiters are not grouped together and will
delimit empty strings.
lume.split("One two three") -- Returns {"One", "two", "three"}
lume.split("a,b,,c", ",") -- Returns {"a", "b", "", "c"}
lume.trim(str [, chars])
Trims the whitespace from the start and end of the string str
and returns the
new string. If a chars
value is set the characters in chars
are trimmed
instead of whitespace.
lume.trim(" Hello ") -- Returns "Hello"
lume.wordwrap(str [, limit])
Returns str
wrapped to limit
number of characters per line, by default
limit
is 72
. limit
can also be a function which when passed a string,
returns true
if it is too long for a single line.
-- Returns "Hello world\nThis is a\nshort string"
lume.wordwrap("Hello world. This is a short string", 14)
lume.format(str [, vars])
Returns a formatted string. The values of keys in the table vars
can be
inserted into the string by using the form "{key}"
in str
; numerical keys
can also be used.
lume.format("{b} hi {a}", {a = "mark", b = "Oh"}) -- Returns "Oh hi mark"
lume.format("Hello {1}!", {"world"}) -- Returns "Hello world!"
lume.trace(...)
Prints the current filename and line number followed by each argument separated by a space.
-- Assuming the file is called "example.lua" and the next line is 12:
lume.trace("hello", 1234) -- Prints "[example.lua:12] hello 1234"
lume.dostring(str)
Executes the lua code inside str
.
lume.dostring("print('Hello!')") -- Prints "Hello!"
lume.uuid()
Generates a random UUID string; version 4 as specified in RFC 4122.
lume.hotswap(modname)
Reloads an already loaded module in place, allowing you to immediately see the
effects of code changes without having to restart the program. modname
should
be the same string used when loading the module with require(). In the case of
an error the global environment is restored and nil
plus an error message is
returned.
lume.hotswap("lume") -- Reloads the lume module
assert(lume.hotswap("inexistant_module")) -- Raises an error
lume.ripairs(t)
Performs the same function as ipairs()
but iterates in reverse; this allows
the removal of items from the table during iteration without any items being
skipped.
-- Prints "3->c", "2->b" and "1->a" on separate lines
for i, v in lume.ripairs({ "a", "b", "c" }) do
print(i .. "->" .. v)
end
lume.rgba(color)
Takes the 32bit integer color
argument and returns 4 numbers, one for each
channel, with a range of 0 - 255. The returned values can be used as the
arguments to LÖVE's setColor() function.
lume.rgba(0xFF304050) -- Returns 48, 64, 80, 255
lume.chain(value)
Returns a wrapped object which allows chaining of lume functions. The function result() should be called at the end of the chain to return the resulting value.
lume.chain({1, 2, 3, 4})
:filter(function(x) return x % 2 == 0 end)
:map(function(x) return -x end)
:result() -- Returns { -2, -4 }
The table returned by the lume
module, when called, acts in the same manner
as calling lume.chain()
.
lume({1, 2, 3}):each(print) -- Prints 1, 2 then 3 on separate lines
License
This library is free software; you can redistribute it and/or modify it under the terms of the MIT license. See LICENSE for details.